SMA SUNNY TRIPOWER 6000TL Installation Manual
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SMA SUNNY TRIPOWER 6000TL Installation Manual

Pv inverter
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See also: Operating Manual , User Manual
PV inverter
SUNNY TRIPOWER
5000TL / 6000TL / 7000TL / 8000TL / 9000TL
Installation Manual
STP5-9TL-IA-en-10 | IMEN-STP5-9TL | Version 1.0
EN

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Summary of Contents for SMA SUNNY TRIPOWER 6000TL

  • Page 1 PV inverter SUNNY TRIPOWER 5000TL / 6000TL / 7000TL / 8000TL / 9000TL Installation Manual STP5-9TL-IA-en-10 | IMEN-STP5-9TL | Version 1.0...

  • Page 3: Table Of Contents

    4.11 SMA Grid Guard ........25 Mounting.

  • Page 4: Changing The Country Data Set And The Display Language

    Table of Contents SMA Solar Technology AG Overview of the Connection Area ..... . 33 6.2.1 View from Below ..........33 6.2.2...

  • Page 5: Table Of Contents Stp5-9Tl-Ia-En-10

    Sunny Tripower 6000TL ........
  • Page 6 Table of Contents SMA Solar Technology AG 13.4 Climatic Conditions ....... . . 101 13.5...

  • Page 7: Information On This Document

    This document is intended for skilled persons. Only skilled workers are allowed to perform the tasks set forth in this document (see Section 2.2 "Qualification of Skilled Persons", page 11). Additional Information For further information, see www.SMA-Solar.com: Document title Document type Insulation resistance (R...
  • Page 8 1  Information on this Document SMA Solar Technology AG Symbols Symbol Explanation Indicates a hazardous situation which, if not avoided, will result in death or serious injury Indicates a hazardous situation which, if not avoided, could result directly in death or serious injury...
  • Page 9 SMA Solar Technology AG 1  Information on this Document Nomenclature Complete designation Designation in this document Torque Torque Electronic Solar Switch PV plant Plant ® SMA Bluetooth Bluetooth Wireless Technology Sunny Tripower Inverter, product SMA Webconnect function Webconnect function Abbreviations...

  • Page 10: Safety

    1.25 μF. All components must remain within their operating ranges at all times. Alternative uses of the Sunny Tripower not expressly recommended by SMA Solar Technology AG are not permitted. For safety reasons, it is not permitted to modify the product or install components that are not explicitly recommended or distributed by SMA Solar Technology AG for this product.

  • Page 11: Qualification Of Skilled Persons

    SMA Solar Technology AG 2  Safety 2.2 Qualification of Skilled Persons The tasks described in this document are intended for skilled persons only. Skilled persons must have the following qualifications: • Knowledge of how an inverter works and is operated • Training in how to deal with the dangers and risks associated with installing and using electrical devices and plants •...

  • Page 12: Scope Of Delivery

    3  Scope of Delivery SMA Solar Technology AG Scope of Delivery Check the delivery for completeness and any externally visible damage. Contact your specialist dealer if the delivery is incomplete or damaged. Figure 2: Components included in delivery Position Quantity Description...

  • Page 13: Product Description

    SMA Solar Technology AG 4  Product Description Product Description 4.1 Sunny Tripower The Sunny Tripower is a transformerless PV inverter with two MPP trackers, which converts the direct current of the PV array into grid-compliant three-phase current and feeds it into the electricity grid.

  • Page 14: Symbols On The Inverter

    This symbol defines the function of the blue LED. The blue LED indicates that communication via Bluetooth is activated. ® ® The QR Code refers to the SMA bonus QR Code programme (for information on this, see www.SMA-Bonus.com). STP5-9TL-IA-en-10 Installation Manual...

  • Page 15: Type Label

    ID (RID) for registration in the Sunny Portal You require the information on the type label to use the inverter safely and for customer support at the SMA Service Line. The type label must be permanently attached to the inverter. Installation Manual STP5-9TL-IA-en-10...

  • Page 16: Symbols On The Type Label

    4  Product Description SMA Solar Technology AG Symbols on the Type Label Symbol Description Explanation Danger to life due to high The product operates at high voltages. voltages All work on the inverter must be carried out by skilled persons only.
  • Page 17 SMA Solar Technology AG 4  Product Description Symbol Description Explanation Outdoor The product is suitable for outdoor installation. RAL quality mark for solar The product complies with the products requirements of the German Institute for Quality Assurance and Certification. Certified safety...

  • Page 18: Electronic Solar Switch (Ess)

    4  Product Description SMA Solar Technology AG 4.3 Electronic Solar Switch (ESS) The ESS and the DC connectors form a DC load disconnect unit. A Bluetooth antenna, integrated into the ESS, increases the radio range. Figure 5: Design of the ESS Position...
  • Page 19 SMA Solar Technology AG 4  Product Description ESS Stickers Sticker Description Explanation Functionality with ESS plugged • If the ESS is plugged in, the in and removed DC electric circuit is closed. • To interrupt the DC electric circuit, you must perform the following steps in order: •...

  • Page 20: Display

    4  Product Description SMA Solar Technology AG 4.4 Display The display shows the current operating data of the inverter (e.g. current power, daily energy, total energy) as well as events or errors. The power and energy are displayed as bars in the diagram.
  • Page 21 Telephone receiver Indicates that an error cannot be rectified on site • Contact the SMA Service Line. Spanner Indicates that an error can be rectified on site Bluetooth Indicates that an active Bluetooth connection is...

  • Page 22: Communication

    The inverter is equipped with Bluetooth communication as standard. Additionally, it features Speedwire communication with Webconnect function. The inverter can communicate with special SMA communication products and other inverters via Bluetooth (see Section 7.4 "Setting the NetID", page 57). If you would like to communicate via Bluetooth, you can protect the inverter with a plant password for the user and a plant password for the installer.

  • Page 23: Multi-Function Relay

    SMA Solar Technology AG 4  Product Description You can connect the inverter to your network via Speedwire. If you use the Webconnect function and have registered your plant in Sunny Portal, Sunny Portal can call up the latest data from your inverter (for information on the logging of your plants in Sunny Portal, refer to the Sunny Portal user manual at www.

  • Page 24: Slot For The Power Control Board

    PV modules. As a result, the optimal operating point for the maximum power (MPP) changes constantly throughout the day. SMA OptiTrac ensures that the operating point of the inverter always coincides exactly with the MPP. Moreover, the inverter detects the presence of several maximum power points in the available operating range via SMA OptiTrac Global Peak, as they can occur with partially shaded PV strings.

  • Page 25: Sma Grid Guard

    SMA Grid Guard code, after the ten feed-in hours. You will receive the SMA Grid Guard code from SMA Solar Technology AG.

  • Page 26: Mounting

    5  Mounting SMA Solar Technology AG Mounting 5.1 Selecting the Mounting Location Requirements for the mounting location: Danger to life due to fire or explosion Despite careful construction, electrical devices can cause fires. • Do not mount the inverter on flammable construction materials.
  • Page 27 SMA Solar Technology AG 5  Mounting Dimensions for wall mounting: Figure 7: Dimensions of the wall mounting bracket and dimensions of the drill holes in the inverter enclosure for the optional anti-theft device Installation Manual STP5-9TL-IA-en-10...
  • Page 28 5  Mounting SMA Solar Technology AG Observe recommended clearances: Figure 8: Recommended clearances • Observe the recommended clearances to the walls as well as to other inverters or objects. This ensures adequate heat dissipation and sufficient space to remove the ESS.

  • Page 29: Mounting The Inverter

    SMA Solar Technology AG 5  Mounting Observe permitted mounting position: Figure 9: Permitted and prohibited mounting positions • Mount the inverter in a permitted mounting position. The display must be mounted at eye level. ☑ Mounting the inverter in a permissible position will ensure that no moisture can penetrate it.
  • Page 30 5  Mounting SMA Solar Technology AG 1. Ensure that there are no lines laid in the wall which could be damaged when drilling. 2. Mark the position of the drill holes using the wall mounting bracket. Use at least one hole on the left-hand side and right-hand side in the wall mounting bracket.
  • Page 31 SMA Solar Technology AG 5  Mounting 7. Attach the inverter to the wall mounting bracket on both sides using the M6x8 screws provided and an Allen key (AF 5). For this purpose, tighten the screws by hand. That prevents the inverter being lifted out.

  • Page 32: Electrical Connection

    6  Electrical Connection SMA Solar Technology AG Electrical Connection 6.1 Safety during Electrical Connection Electric Shock High voltages that can cause fatal electric shocks are present in the live components of the inverter. • Prior to performing any work on the inverter, disconnect it from any voltage source as described in this document (see Section 10).

  • Page 33: Overview Of The Connection Area

    SMA Solar Technology AG 6  Electrical Connection 6.2 Overview of the Connection Area 6.2.1 View from Below Figure 10: Connection areas and enclosure openings at the bottom of the inverter Position Description Positive DC connectors for connecting the positive DC cables of the PV modules for...

  • Page 34: Interior View

    6  Electrical Connection SMA Solar Technology AG 6.2.2 Interior View Figure 11: Connection areas in the interior of the inverter Position Description Connecting terminal plate for the AC cable Terminal for connection to the multi-function relay Slot for the Power Control Board...

  • Page 35: Ac Connection

    AC current, type of cable, routing method, cable bundling, ambient temperature and maximum desired line losses (for calculation of line losses, see design software "Sunny Design" with software version 2.0 or higher at www.SMA-Solar.com). Switch-disconnector and cable protection: Damage to the inverter by using screw-type fuses as switch-disconnectors Screw-type fuses (e.g.

  • Page 36: Connecting The Inverter To The Electricity Grid

    6  Electrical Connection SMA Solar Technology AG 6.3.2 Connecting the Inverter to the Electricity Grid Requirements: ☐ The country data set and the display language must be correctly set (see Section 7.2) ☐ The connection requirements of the network operator must be met.
  • Page 37 SMA Solar Technology AG 6  Electrical Connection 10. Connect the AC cable to the connecting terminal plate for the AC cable: • Connect PE to the PE terminal and push the safety lever down. • Connect N to the N terminal and push the safety lever down.

  • Page 38: Additional Earthing Of The Enclosure

    6  Electrical Connection SMA Solar Technology AG 6.3.3 Additional Earthing of the Enclosure If a second protective conductor or equipotential bonding is required locally, you can also earth the enclosure. This prevents touch current if the original protective conductor fails. Cable requirement: ☐...

  • Page 39: Dc Connection

    SMA Solar Technology AG 6  Electrical Connection 6.4 DC Connection 6.4.1 Conditions for DC Connection Requirements for the PV modules per input: ☐ All PV modules must be of the same type. ☐ All PV modules must be aligned identically. ☐ All PV modules must have the same tilt angle.

  • Page 40: Assembling The Dc Connectors

    6  Electrical Connection SMA Solar Technology AG 6.4.2 Assembling the DC Connectors Figure 12: DC connectors Position Description Negative DC connector Positive DC connector Cable requirements: ☐ PV1-F cable must be available. ☐ External diameter of the cable: 5 mm … 8 mm ☐...
  • Page 41 SMA Solar Technology AG 6  Electrical Connection 3. Push the clamping bracket down. ☑ The clamping bracket clicks audibly into place. ☑ The stranded wire can be seen inside the clamping bracket chamber. ✖ The stranded wire cannot be seen in the chamber.

  • Page 42: Connecting The Pv Array

    6  Electrical Connection SMA Solar Technology AG 6.4.3 Connecting the PV Array Danger to life due to electric shock or fire The maximum possible input current per string is limited by the DC connectors used. If the DC connectors are overloaded, an electric arc may occur and there is a risk of fire.
  • Page 43 SMA Solar Technology AG 6  Electrical Connection 4. Check strings for earth faults (see Section 11.5). 5. Connect the assembled DC connectors to the inverter. ☑ The DC connectors click audibly into place. Installation Manual STP5-9TL-IA-en-10...
  • Page 44 6  Electrical Connection SMA Solar Technology AG Damage to the inverter due to moisture penetration The inverter is only properly sealed when all the unused DC inputs are closed with DC connectors and sealing plugs. • DO NOT insert the sealing plugs DIRECTLY into the DC inputs on the inverter.
  • Page 45 SMA Solar Technology AG 6  Electrical Connection 8. Secure the protective cover using two screws and an Allen key (AF 5). 9. Securely plug in the ESS. Installation Manual STP5-9TL-IA-en-10...

  • Page 46: Connecting The Inverter To The Network

    6  Electrical Connection SMA Solar Technology AG 6.5 Connecting the Inverter to the Network Required material (not included in the scope of delivery): • 1 plug for RJ45 socket according to IEC 61076-3-106, model 4 with push-pull lock Recommendations: – "STX V4 RJ45" plug set; manufacturer: Telegärtner –...
  • Page 47 SMA Solar Technology AG 6  Electrical Connection Using the Multi-Function Relay as Fault Signalling Contact You can make use of the multi-function relay as a fault signalling contact and have an error of the inverter either displayed or reported. Alternatively, you can choose to have uninterrupted operation displayed or reported.
  • Page 48 6  Electrical Connection SMA Solar Technology AG Controlling Loads or Charging Batteries in a Power-Dependent Way via the Multi-Function Relay Loads can be controlled and batteries charged in a power-dependent way via the multi-function relay. To enable this function, you need to connect a contactor (K1) to the multi-function relay. The contactor (K1) switches the operating current for the load on or off.
  • Page 49 SMA Solar Technology AG 6  Electrical Connection Reporting Switching Status of Grid Relay The multi-function relay can trip a signal to the network operator as soon as the inverter connects to the electricity grid. To enable this function, the multi-function relays of all inverters must be switched in parallel.

  • Page 50: Connection To The Multi-Function Relay

    6  Electrical Connection SMA Solar Technology AG 6.6.2 Connection to the Multi-Function Relay Figure 16: Terminal block for connection to the multi-function relay Requirements: ☐ The technical requirements of the multi-function relay must be met (see Section 13 "Technical Data", page 90). Cable requirements: ☐...
  • Page 51 SMA Solar Technology AG 6  Electrical Connection 3. Remove the filler-plug from the M25 cable gland for connection to the multi-function relay. 4. Route the cable into the inverter through the cable gland. If necessary, slightly loosen the swivel nut of the M25 cable gland for connection to the multi-function relay.

  • Page 52: Settings Using The Rotary Switches

    In the following, you will find a list of possible rotary switch positions and which country data sets and display languages are indicated by each position (for information on the country data sets, see the technical description "Overview of Country Data Sets" at www.SMA-Solar.com). Each country data set contains various operating parameters, which can be individually set according to each country data set.
  • Page 53 SMA Solar Technology AG 7  Settings using the Rotary Switches Rotary switch Rotary switch Country data set Display language A position B position Retained Spanish Retained Italian Retained Greek Retained Czech Retained Korean Retained Portuguese Retained Dutch Retained Slovenian Retained...
  • Page 54 7  Settings using the Rotary Switches SMA Solar Technology AG Rotary switch Rotary switch Country data set Display language A position B position EN50438**** Polish EN50438-CZ**** Czech EN50438-CZ**** English EN50438-CZ**** German PPDS**** Czech PPDS**** English PPDS**** German C10/11**** French C10/11****...

  • Page 55: Changing The Country Data Set And The Display Language

    SMA Solar Technology AG 7  Settings using the Rotary Switches 7.2 Changing the Country Data Set and the Display Language By default, the inverter is set to a specific country data set. You will find the country data set to which the inverter has been configured on the type label and the enclosed supplementary sheet with the default settings.

  • Page 56: Changing The Display Language Independently Of The Country Data Set

    7  Settings using the Rotary Switches SMA Solar Technology AG 7.3 Changing the Display Language Independently of the Country Data Set If a country data set has been configured and the corresponding display language is not the language you prefer, you can change the display language independently of the country data set.

  • Page 57: Setting The Netid

    7  Settings using the Rotary Switches 7.4 Setting the NetID By default, the NetID is set to 1 for all SMA inverters and SMA communication products. This means that the inverter can communicate with one SMA communication product via Bluetooth. You may leave the default NetID set to 1 in your inverter if your plant consists of the following products: •...
  • Page 58 7  Settings using the Rotary Switches SMA Solar Technology AG Figure 18: Positions of rotary switch C Position Explanation Communication via Bluetooth is deactivated. Communication via Bluetooth with one communication product. 2 … F NetID for communication with other inverters and several communication products via Bluetooth.

  • Page 59: Commissioning

    SMA Solar Technology AG 8  Commissioning Commissioning 8.1 Commissioning the Inverter for the First Time When commissioning the inverter for the first time, proceed as follows. Requirements: ☐ The miniature circuit-breaker must be correctly rated. ☐ The inverter must be correctly mounted and closed.

  • Page 60: Recommissioning The Inverter

    8  Commissioning SMA Solar Technology AG 8.2 Recommissioning the Inverter If you have disconnected the inverter from voltage sources (e.g. for configuration purposes) and want to recommission it, proceed as follows. Requirements: ☐ The miniature circuit-breaker must be correctly rated. ☐ The inverter must be correctly mounted.
  • Page 61 SMA Solar Technology AG 8  Commissioning 5. Securely plug in the ESS. 6. Switch on the miniature circuit-breaker. 7. If a multi-function relay is used, switch on the load supply voltage. ☑ The start-up phase begins. All three LEDs are lit or flashing.

  • Page 62: Configuration

    9  Configuration SMA Solar Technology AG Configuration 9.1 Changing the Plant Time and Plant Password Requirements: ☐ A computer with Bluetooth interface must be available. ☐ Sunny Explorer with software version 1.04 or higher must be installed on the computer. ☐ The plant must be logged in Sunny Explorer.

  • Page 63: Connecting The Inverter To Sunny Portal

    ☐ The changes to the grid-relevant parameters must be approved by the responsible network operator. ☐ An SMA Grid Guard code for changing the grid-relevant parameters must be available (see certificate "Application for SMA Grid Guard-Code" at www.SMA-Solar.com). 1. Access the user interface of the communication product.

  • Page 64: Changing The Operating Mode Of The Multi-Function Relay

    9.6 Activating and Setting SMA OptiTrac Global Peak With partially shaded PV modules, you should activate SMA OptiTrac Global Peak and set the time interval in which the inverter can optimise the MPP of the PV plant.

  • Page 65: Disconnecting The Inverter From Voltage Sources

    SMA Solar Technology AG 10  Disconnecting the Inverter from Voltage Sources 10 Disconnecting the Inverter from Voltage Sources Always disconnect the inverter from voltage sources before performing any work on it as described in this section. 1. Disconnect the miniature circuit-breaker and secure against reconnection.
  • Page 66 10  Disconnecting the Inverter from Voltage Sources SMA Solar Technology AG 5. Release and remove all DC connectors. To do this, insert a slotted screwdriver (blade width: 3.5 mm) into one of the side slots and pull the DC connectors straight out.
  • Page 67 SMA Solar Technology AG 10  Disconnecting the Inverter from Voltage Sources 9. Ensure that no voltage is present between L1 and N, L2 and N, as well as between L3 and N on the AC connecting terminal plate one after another using a suitable measuring device.

  • Page 68: Troubleshooting

    The selected rotary switch position is not assigned or it is not possible to param.unchanged change the grid parameters. Inst. code valid The SMA Grid Guard code entered is valid. Protected parameters have now been unblocked and you can adjust the parameters. The parameters are automatically locked again after ten feed-in hours. Self-test The self-test is being carried out.

  • Page 69: Error Messages

    If the line voltage is permanently in the permissible range and this message is still displayed, contact the SMA Service Line. 202 … 203 Grid fault The electricity grid has been disconnected, the AC cable is damaged or the line voltage at the termination point of the inverter is too low.
  • Page 70 If the line voltage is permanently in the permissible range and this message is still displayed, contact the SMA Service Line. Grid fault The inverter is no longer in grid-parallel operation. The inverter has stopped feeding into the electricity grid.
  • Page 71 SMA Solar Technology AG 11  Troubleshooting Event Display message Cause and corrective measures number Grid fault The power frequency is not within the permissible range. The inverter has disconnected from the electricity grid. Corrective measures: • As far as possible, check the power frequency and observe how often fluctuations occur.
  • Page 72 11  Troubleshooting SMA Solar Technology AG Event Display message Cause and corrective measures number 1302 Waiting for grid voltage The inverter has detected an error in the AC cabling or the potential difference between N and PE in the Installation failure grid building installation is above 50 V.
  • Page 73 If the line voltage is permanently in the permissible range and this message is still displayed, contact the SMA Service Line. 3401 … DC overvoltage Overvoltage at the DC input. The inverter may be 3402 destroyed.
  • Page 74 11  Troubleshooting SMA Solar Technology AG Event Display message Cause and corrective measures number 3501 Insulation resist. The inverter has detected an earth fault in the PV array. Check generator Corrective measures: • Check the PV plant for earth faults (see Section 11.5).
  • Page 75 SMA Solar Technology AG 11  Troubleshooting Event Display message Cause and corrective measures number 6001 … Self diagnosis The cause must be determined by the SMA Service 6009 Line. Interference device Corrective measures: • Contact the SMA Service Line. 6101 … Self diagnosis...
  • Page 76 SMA Solar Technology AG Event Display message Cause and corrective measures number 6437 … Self diagnosis The cause must be determined by the SMA Service 6438 Line. Interference device Corrective measures: • Contact the SMA Service Line. 6501 … Self diagnosis...
  • Page 77 SMA Solar Technology AG 11  Troubleshooting Event Display message Cause and corrective measures number 7001 … Sensor fault fan The cause must be determined by the SMA Service 7002 permanently on Line. Corrective measures: • Contact the SMA Service Line. 7401 Varistor defective At least one of the thermally monitored varistors is defective.

  • Page 78: Cleaning The Inverter

    • If the ambient temperature is over ‒25°C, contact the SMA Service Line. 9002 Inst. code invalid The SMA Grid Guard code entered is incorrect. The parameters are still protected and cannot be changed. Corrective measures: • Enter the correct SMA Grid Guard code.

  • Page 79: Checking The Pv Plant For Earth Faults

    • Determine the location of the earth fault via the ratio of the two measured voltages. • Eliminate the earth fault. If there is no earth fault and the message is still displayed, contact the SMA Service Line. Installation Manual...

  • Page 80: Checking The Function Of The Varistors

    11  Troubleshooting SMA Solar Technology AG Example: Location of the earth fault The example shows an earth fault between the second and third PV module. 3. Recommission the inverter (see Section 8). 11.6 Checking the Function of the Varistors If the inverter displays event number 7401, one of the varistors is probably defective. Check the function of each varistor as described below.

  • Page 81: Replacing The Varistors

    If there is no conductive connection present, the varistor is defective. SMA Solar Technology AG recommends replacing all varistors immediately. – Order new varistors and a new insertion tool (see Section 14 "Accessories", page 103).

  • Page 82: Cleaning The Fans

    11  Troubleshooting SMA Solar Technology AG 4. Insert the new varistor into the terminals of the terminal block. The labels of the varistor must face to the right in the inside of the inverter. 5. Remove the insertion tool from the contacts of the terminal block.
  • Page 83 SMA Solar Technology AG 11  Troubleshooting If the fan is soiled, remove the fan: • Use a screwdriver to push the two latches at the right edge of the fan guard to the right and remove them from the retainer.

  • Page 84: Checking The Fans

    Check the assembly of the fans. If despite proper assembly, there is nevertheless no air being released through the ventilation grids or the fans are making unusual noises, contact the SMA Service Line. 5. Select the Fan test parameter and set to Off.

  • Page 85: Cleaning The Ventilation Grids

    SMA Solar Technology AG 11  Troubleshooting 11.10 Cleaning the Ventilation Grids 1. Remove the ventilation grids to the sides. Damage to the inverter due to foreign bodies • Do not remove the ventilation grids permanently, otherwise foreign bodies could enter into the enclosure.

  • Page 86: Decommissioning

    12  Decommissioning SMA Solar Technology AG 12 Decommissioning 12.1 Dismantling the Inverter Risk of injury due to the heavy weight of the inverter • Take the weight of the inverter into account (see Section 13 "Technical Data", page 90). • Transport the inverter horizontally, using the recessed grips on the sides or one steel rod (diameter: 30 mm at maximum).
  • Page 87 SMA Solar Technology AG 12  Decommissioning 5. Securely plug in the ESS. 6. Close the inverter: • Attach one conical spring washer on each screw. The grooved side of the conical spring washer must point to the screw head. • Secure the enclosure lid in the sequence 1 to 6 (torque: 6 Nm) using an Allen key (AF 5).
  • Page 88 12  Decommissioning SMA Solar Technology AG 8. Loosen the screws on both sides between the inverter and the wall mounting bracket using an Allen key (AF 5). 9. If the inverter is protected against theft, loosen the safety screws. 10. Remove the inverter by lifting it up and out of the wall mounting bracket.

  • Page 89: Packing The Inverter

    • Dispose of the inverter in accordance with the locally applicable disposal regulations for electronic waste. Return the inverter to SMA Solar Technology AG at your own expense (see Section 15 "Contact", page 104). Label the package "ZUR ENTSORGUNG" ("FOR DISPOSAL"). Installation Manual...

  • Page 90: Technical Data

    13  Technical Data SMA Solar Technology AG 13 Technical Data 13.1 DC/AC 13.1.1 Sunny Tripower 5000TL DC Input Maximum DC power at cos φ = 1 5,100 W Maximum input voltage* 1,000 V MPP voltage range 245 V … 800 V Rated input voltage...
  • Page 91 SMA Solar Technology AG 13  Technical Data AC Output Rated power at 230 V, 50 Hz 5,000 W Maximum apparent AC power 5,000 VA Rated grid voltage 230 V Nominal AC voltage at 220 V 380 V Nominal AC voltage at 230 V...

  • Page 92: Sunny Tripower 6000Tl

    13  Technical Data SMA Solar Technology AG 13.1.2 Sunny Tripower 6000TL DC Input Maximum DC power at cos φ = 1 6,125 W Maximum input voltage* 1,000 V MPP voltage range 295 V … 800 V Rated input voltage 580 V...
  • Page 93 SMA Solar Technology AG 13  Technical Data AC Output Rated power at 230 V, 50 Hz 6,000 W Maximum apparent AC power 6,000 VA Rated grid voltage 230 V Nominal AC voltage at 220 V 380 V Nominal AC voltage at 230 V...

  • Page 94: Sunny Tripower 7000Tl

    13  Technical Data SMA Solar Technology AG 13.1.3 Sunny Tripower 7000TL DC Input Maximum DC power at cos φ = 1 7,175 W Maximum input voltage* 1,000 V MPP voltage range 290 V … 800 V Rated input voltage 580 V...
  • Page 95 SMA Solar Technology AG 13  Technical Data AC Output Rated power at 230 V, 50 Hz 7,000 W Maximum apparent AC power 7,000 VA Rated grid voltage 230 V Nominal AC voltage at 220 V 380 V Nominal AC voltage at 230 V...

  • Page 96: Sunny Tripower 8000Tl

    13  Technical Data SMA Solar Technology AG 13.1.4 Sunny Tripower 8000TL DC Input Maximum DC power at cos φ = 1 8,200 W Maximum input voltage* 1,000 V MPP voltage range 330 V … 800 V Rated input voltage 580 V...
  • Page 97 SMA Solar Technology AG 13  Technical Data AC Output Rated power at 230 V, 50 Hz 8,000 W Maximum apparent AC power 8,000 VA Rated grid voltage 230 V Nominal AC voltage at 220 V 380 V Nominal AC voltage at 230 V...

  • Page 98: Sunny Tripower 9000Tl

    13  Technical Data SMA Solar Technology AG 13.1.5 Sunny Tripower 9000TL DC Input Maximum DC power at cos φ = 1 9,225 W Maximum input voltage* 1,000 V MPP voltage range 370 V … 800 V Rated input voltage 580 V...
  • Page 99 SMA Solar Technology AG 13  Technical Data AC Output Rated power at 230 V, 50 Hz 9,000 W Maximum apparent AC power 9,000 VA Rated grid voltage 230 V Nominal AC voltage at 220 V 380 V Nominal AC voltage at 230 V...

  • Page 100: General Data

    13  Technical Data SMA Solar Technology AG 13.2 General Data Width x height x depth with 470 mm x 730 mm x 240 mm Electronic Solar Switch Weight 37 kg Length x width x height of packaging 798 mm x 598 mm x 398 mm...

  • Page 101: Climatic Conditions

    SMA Solar Technology AG 13  Technical Data 13.4 Climatic Conditions According to IEC 60721-3-4, Installation type C, Class 4K4H Extended temperature range − 25°C … +60°C Extended humidity range 0% … 100% Extended air pressure range 79.5 kPa … 106 kPa...

  • Page 102: Data Storage Capacity

    13  Technical Data SMA Solar Technology AG 13.8 Data Storage Capacity Daily energy yield performance 63 days Daily yields 30 years Event messages for users 250 events Event messages for installers 250 events 13.9 Multi-Function Relay Maximum AC switching voltage 240 V...

  • Page 103: Accessories

    SMA Solar Technology AG 14  Accessories 14 Accessories You will find the corresponding accessories and spare parts for your product in the following overview. If required, you can order them from SMA Solar Technology AG or from your specialist dealer. Description Brief description...

  • Page 104: Contact

    15  Contact SMA Solar Technology AG 15 Contact If you have technical problems concerning our products, contact the SMA Service Line. We require the following information in order to provide you with the necessary assistance: • Inverter device type • Inverter serial number •...
  • Page 107 Legal Restrictions The information contained in this document is the property of SMA Solar Technology AG. Publishing its content, either partially or in full, requires the written permission of SMA Solar Technology AG. Any internal company copying of the document for the purposes of evaluating the product or its correct implementation is allowed and does not require permission.

This manual is also suitable for:

Sunny tripower 5000tlSunny tripower 9000tlSunny tripower 7000tlSunny tripower 8000tl

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